Extrusion molding process and the related apparatus

ABSTRACT

An extrusion molding process including the steps of: i) extruding a material through an extruding die into a tubular molding. ii) driving two clamping devices to clamp the tubular molding at different elevations, causing an air-tight space to be formed within the tubular. iii) closing two symmetrical halves of a molding die on the molding between the clamping devices and simultaneously lowering one clamping device to stretch the molding downwards, causing the molding to be compressed in a die cavity between the two symmetrical halves of the molding die and molded into the desired finished product: and iv) opening the molding die from the finished product and returning the clamping devices to their former positions.

BACKGROUND OF THE INVENTION

[0001] The present invention relates to an extrusion molding process, and more particularly to such an extrusion molding process in which the extruded tubular molding from an extruding die is clamped by two clamping devices at different elevations and downwardly stretched, and two symmetrical halves of a molding die are closed on the clamped molding between the clamping devices, causing the clamped molding to be compressed and molded into a finished product.

[0002] According to a conventional method of fabricating hollow plastic products through an extrusion molding process, plastic material is extruded into a molding through an extruding die and then seized by clamping means and retained in a die cavity of a molding die, and then a cutting tool is moved to each off the molding from the extruding die, and then a nozzle is inserted into the molding and air is blown into the molding in the die cavity of the molding die, causing the molding to be expanded and molded into a finished product. After molding, the molding die is lowered and then opened. After the finished product is removed from the molding die, the molding die is returned to its former position for a next molding cycle. This extrusion molding method has numerous drawbacks outlined hereinafter:

[0003] 1. Nozzle and blower means must be provided so that air can be blown into the extruded molding, causing it to expand in the die cavity of the molding die.

[0004] 2. When thermoplastic material is used and extruded into a molding through the extruding die and the extruded molding is seized by clamping means, the nozzle must be immediately inserted into the extruded molding so that the extruded molding can be swollen with air, avoiding its two opposite side walls from adhering together. This blow molding procedure is not suitable for making a hollow product having a short pitch between its two opposite side walls.

[0005] 3. If the peripheral wall thickness of the extruded molding is not uniform, the extruded molding will bias from the course, causing itself unable to fall to the accurate position for catching by clamping means. Even if the extruded molding is seized by clamping means and put in the die cavity of the molding die for molding, the ununiform wall thickness may cause the side walls of the finished product to be partially adhered together after the finished product is removed from the molding die.

SUMMARY OF THE INVENTION

[0006] The present invention has been accomplished to provide an extrusion molding process which eliminates the aforesaid drawbacks. According to he extrusion molding process of the present invention, when a molding is extruded from an extruding die, one clamping device of a molding die unit is clamped on the bottom end of the extruded molding and lowered to stretch the extruded molding downwards, then a second clamping device of the molding die unit is clamped on the upper end of the extruded molding, causing an air-tight space to be formed din the clamped molding, and then two symmetrical halves of a molding die are moved toward each other between the two clamping devices and then closed on the clamped molding, causing the molding to be compressed in the die cavity of the molding die. When the molding is compressed, its inside pressure is relatively increased, thereby causing the wall of the molding to be closely attached to the surface of the die cavity of the molding die. When the molding die is opened after molding, the clamping devices are released, and the molding die unit is lifted to its former position for a next molding cycle. According to another aspect of the present invention, the extruding die comprises a conical core, an air nozzle mounted in the conical core, a ring-shape mold plate mounted around the conical core and defining a gap around the conical core through which gap fed material is extruded into an extruded molding, and adjustment screws controlled to adjust the gap between the conical core and the ring-shaped mold plate subject to the depth of the die cavity of the molding die. According to still another aspect of the present invention, the die cavity of the molding die has raised recess which makes a particular part of the wall of the molded product thinner, so that the thin wall portion of the molded product can be forced to break by the inside pressure of the molded product upon opening of the molding die, for permitting the inside gas of the molded product to escape.

BRIEF DESCRIPTION OF THE DRAWINGS

[0007]FIG. 1 is a sectional view of an extrusion molding apparatus showing a tubular molding extruded from the extruding die of the apparatus according to the present invention;

[0008]FIG. 2 is a sectional view of the extrusion molding apparatus of the present invention, showing the lower clamping device clamped on the bottom end of the tubular molding;

[0009]FIG. 3 is a sectional view of the extrusion molding apparatus according to the present invention, showing the molding die unit lowered, the tubular molding stretched downwards;

[0010]FIG. 4 is a sectional view of the extrusion molding apparatus according to the present invention, showing the upper clamping device and the lower clamping device respectively clamped on the tubular molding at different elevations;

[0011]FIG. 5 is a sectional view of the extrusion molding apparatus according to the present invention, showing the upper clamping device and the lower clamping device respectively clamped on the tubular molding at different elevations, and the molding die closed on the tubular molding between the clamping devices;

[0012]FIG. 6 is a sectional view of the extrusion molding apparatus according to the present invention, showing molding molded into a finished product, the molding die opened, and the clamping devices released;

[0013]FIG. 7 is a cross sectional view of the extruding die according to the present invention;

[0014]FIG. 8 shows the structure of a part of the molding die unit according to the present invention;

[0015]FIG. 9 shows one die half of the molding die mounted on a base plate according to the present invention.

[0016]FIG. 10 is a plain view of the frame for the molding die unit according to the present invention;

[0017]FIG. 11 shows one die half of the molding die connected between the base plate and the frame according to the present invention.

[0018]FIG. 12 is a front plain view of the molding die unit according to the present invention;

[0019]FIG. 13 is a side plain view of the molding die unit according to the present invention;

[0020]FIG. 14 is a sectional view of the molding die unit according to the present invention;

[0021]FIG. 15 is a side plain view of the present invention, showing a tubular molding extruded from the extruding die;

[0022]FIG. 16 is a plain view showing the two ends of the extruded molding clamped by the frame of the molding die unit according to he present invention;

[0023]FIG. 17 is a plain view showing the two ends of the extruded molding clamped by the frame of the molding die unit and the molding die closed on the molding; and

[0024]FIG. 18 is a sectional view of a part of the molding die, showing the structure of the pin in the die cavity.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0025] Referring to FIG. 6, a molding die unit 2 is set below an extruding die 1. A driving mechanism (not shown) is mounted on the molding die unit 2 for vertical or oblique lifting control. The molding die unit 2 comprises a molding die 3, and two clamping devices 4 mounted on both sides of the molding die 3. The molding die 3 is comprised of two symmetrical halves, having a cavity 31 defined between its two symmetrical halves and a pin 32 raised form its one half within the cavity 31. Rollers 7 of a roller conveyor are disposed below the molding die unit 2.

[0026] Referring to FIG. 18, a through hole 33 is made through the pin 32 of the molding die 3 which imparts a passage between the cavity 31 and the outside of the molding die 3. A groove 34 is made on the end surface of the pin 32 and extended to the through hole 33, having at least one end passing to the periphery of the pin 32. An adjustment element 35 is mounted in the through hole 33. By adjusting the vertical position of the adjustment element 35 in the through hole 33, the wall thickness of the finished product in the through hole 33 is controlled at the range between the end surface of the pin 32 to the adjustment element 35. Therefore, when the die is opened, the inside high pressure of the finished product immediately breaks the wall part of the finished product which extends to the adjustment element 35, and escapes to the outside to let inside pressure and outside pressure be balanced.

[0027] When the aforesaid pin 32 is abutted against the pin of another cavity, high pressure from extrusion passes along the groove 34 to break the wall part of the finished product which extends to the adjustment element 35 and to escape to the outside. Alternatively, the aforesaid through hole 33 can be made at the surface of the cavity 31 at the desired location, and the aforesaid adjustment element 35 can be installed din the through hole 33 and adjusted to control the wall thickness of the finished product in the thorough hole 33, so that when the die is open, the inside high pressure of the finished product immediately breaks the wall part of the finished product which extends to the adjustment element 35, and escapes to the outside to let inside pressure and outside pressure be balanced.

[0028] Referring to FIG. 7, the extruding die 1 comprises a conical core 11 made subject to the design of the desired finished product, an air nozzle 12 mounted in the conical core 11, a ring-shaped mold plate 13 mounted around the conical core 11, and adjustment screws 14 controlled to adjust the gap between the conical core 11 and the ring-shaped mold plate 13 subject to the depth of the cavity 31 of the molding die 3. Therefore, when material is delivered to the extruding die 1, it can be extruded thorough the gap between the conical core 11 and the ring-shaped mold plate 13 into a molding 5 of thickness subject to the depth of the cavity 31 (see also FIG. 6)

[0029] Referring to FIGS. 1, 8 and 15, when material is poured into the extruding machine, it is heated and extruded out of the extruding die 1 by a screw (this procedure is similar to the prior art, therefore it is neither shown by drawings nor described in detail). Before extrusion, the gap between the conical core 11 and the ring-shaped mold plate 13 is adjusted subject to the depth of the cavity 31. When extruded, the molding 5 which has a uniform wall thickness falls to the molding die 3.

[0030] Referring to FIG. 2, when the molding 5 falls from extruding die 1 at a certain distance, the two symmetrical parts of the clamping device 4 which is disposed at the bottom side remote from the extruding die 1 are moved toward each other at a fixed speed to hold down the bottom end of the molding 5.

[0031] Referring to FIG. 3, when the bottom end of the molding 5 is seized by the clamping device 4 at the bottom side, the whole molding die unit 2 is moved downwards at a constant speed, causing the molding 5 to be simultaneously stretched downwards.

[0032] Referring to FIG. 4, when the molding 5 is stretched downwards, the two symmetrical parts of the clamping device 4 at the top side are moved toward each other to clamp the molding 5.

[0033] Referring to FIG. 5, when the two clamping devices 4 are respectively secured to the molding 5, the molding die unit 2 is continuously moved downwards at a constant speed, and at the same time the two symmetrical halves of the molding die 3 are moved toward each other and closed on the molding 5. Because the molding 5 has a tubular configuration and its both ends are scaled by the clamping devices 4, the volume of the molding 5 between the clamping devices 4 is relatively reduced when the two symmetrical halves of the molding die 3 are moved toward each other against the molding 5. According to Boyle and Richard's jaw P₁V₁=P₂V₂=NRT, the inside pressure of the molding 5 between the clamping devices 4 is relatively increased when compressed by the molding die 3, therefore the wall of the molding 5 between the clamping devices 4 is forced by the increased inside pressure of the molding 5 to closely adhere to the surface of the cavity 31 of the molding die 3. Because the molding 5 is stretched downwards and its both ends are seized by the clamping deices 4 and the inside pressure of the molding 5 forces the tubular wall of the molding 5 to expand, the molding 5 expands uniformly three-dimensionally.

[0034] Referring to FIGS. 6 and 18, when the molding die unit 2 is closed on the molding 5 and lowered to the set location, the two symmetrical halves of the molding die 3 are bilaterally moved away from the molding 5, and the clamping devices 4 are simultaneously released from the molding 5. When the molding die 3 is opened from the molding 5, the wall part of the molding 5 corresponding to the pin 32 is relatively thinner and immediately broken by the inside pressure of the molding 5 upon the opening of the molding die 3, permitting the inside pressure of the molding 5 to be maintained balanced with the outside pressure. When the molding 5 is molded into the desired shape (finished product), the molding die unit 2 is released, permitting the finished product to be delivered by the rollers 7 to the collecting area, and then the molding die unit 2 is moved back to its former position for a next cycle.

[0035] Referring to FIGS. 8, 9, 10 and 11, each half of the molding die 3 is mounted on a respective base plate 6, and each part of each clamping device 4 is mounted don a frame 44 around on half of the molding die 3.

[0036] Referring to FIGS. 12, 13 and 14, guide rods 9 are fixedly mounted on the base plate 6 and inserted thorough holes (not shown) on the frame 44 for guiding the movement of the frame 44. A spring 8 is mounted between the base plate 6 and the frame 44 to force them apart. When the squeezing force is released, the spring 8 immediately pushes the base plate 6 and the frame 44 apart, causing them to be returned to their former positions.

[0037] Referring to FIGS. 16 and 17, the clamping and compressing procedure can be down before the molding die 3 is lowered.

[0038] It is to be understood that the drawings are designed for purposes of illustration only, and are not intended as a definition of the limits and scope of the invention disclosed. 

What the invention claimed is:
 1. An extrusion molding process including the steps of: i) extruding a material through an extruding die into a tubular molding; ii) driving a first clamping device and a second clamping device to clamp said tubular molding at different elevations, causing an air-tight space to be formed within said tubular between said clamping devices, said first clamping devices being driven to clamp a lower end of said molding, said second clamping device being driven to clamp an upper end of said molding, iii) closing two symmetrical halves of a molding die on said molding between said clamping devices, causing said molding to be compressed in a die cavity between the two symmetrical halves of said holding die and molded into finished product; and iv) opening said molding die from said finished product and returning said clamping devices to their former positions.
 2. The extrusion molding process of claim 1 , wherein said first clamping device is lowered to stretch said molding downwards when clamped on said molding.
 3. The extrusion molding process of claim 1 further comprising the step of making a relief hold on said molding after said molding is molded by said molding die, for permitting the inside pressure of said finished product to be released.
 4. The extrusion molding process of claim 1 , wherein said molding is forced by its inside pressure to automatically adjust its wall thickness subject to the depth of said die cavity of said molding die so that said finished product has a uniform wall thickness.
 5. The extrusion molding process of claim 1 , wherein said material is a thermoplastics.
 6. The extrusion molding process of claim 1 , wherein said material is a rubber.
 7. The extrusion molding process of claim 1 , wherein said material is a metal.
 8. The extrusion molding process of claim 1 , wherein said material is an extensible organic substance.
 9. The extrusion molding process of claim 1 , wherein said material is an extensible inorganic substance.
 10. An apparatus for the extrusion molding process according to claim 1 , comprising a molding die having two symmetrical halves moved relative to each other and defining a die cavity subject to the shape of the desired finished product, and at least one pair of clamping devices disposed at two opposite sides of said molding die.
 11. The apparatus of claim 10 , wherein said molding die comprises a pin raised from its one half within said the cavity, and an exhaust hold through said pin for exhaust of pressure from the finished product molded in said die cavity upon the opening of said molding die.
 12. The apparatus of claim 10 , wherein said molding die compresses a relief control pin moved to pierce the finished product molded in said die cavity, for permitting the inside pressure of the finished product to be release upon the opening of said molding die.
 13. The apparatus of claim 10 , wherein said clamping devices are installed in an enclosed frame covered on said molding die.
 14. The apparatus of claim 10 , wherein said molding die has a relief held for exhaust of inside pressure to the outside.
 15. The apparatus of claim 14 , wherein a movable element is mounted in said relief hold and moved to control its depth. 